Product Description
Right Angle Gear Motor for Belt Conveyor
Technical data:
1. Power: 4-5
5. Transmission stage: 1 stage, 2 stage, 3 stage, 4 stage
6. Mounting position: Vertical, horizontal
| Item No. | iN | T2N(KN.m) | P1N(KW) |
| B2-4 | 5-11.2 | 6.1-6.2 | 41-185 |
| B2-5 | 5-11.2 | 9.4 | 62-285 |
| B2-6 | 6.3-14 | 12 | 63-289 |
| B2-7 | 5-11.2 | 19 | 126-576 |
| B2-8 | 6.3-14 | 23.8 | 126-573 |
| B2-9 | 5-11.2 | 29.9 | 198-908 |
| B2-10 | 6.3-14 | 38 | 201-915 |
| B2-11 | 5-11.2 | 46-54 | 358-1397 |
| B2-12 | 6.3-14 | 58.8-66.3 | 351-1416 |
| B2-13 | 5-11.2 | 68.6-81.1 | 538-2082 |
| B2-14 | 6.3-14 | 85.2-101 | 538-2052 |
| B2-15 | 5-11.2 | 122-132 | 877-3704 |
| B2-16 | 5.6-12.5 | 135-148 | 880-3662 |
| B2-17 | 5.6-11.2 | 195 | 1295-4697 |
| B2-18 | 7.1-12.5 | 230 | 1368-4376 |
| B3-4 | 12.5-71 | 5.5-6.7 | 7-67 |
| B3-5 | 12.5-71 | 9.4-11.6 | 11-114 |
| B3-6 | 16-90 | 12-15.5 | 11-114 |
| B3-7 | 12.5-71 | 17-21.7 | 25-206 |
| B3-8 | 16-90 | 21.5-25.2 | 21-204 |
| B3-9 | 12.5-71 | 28-35.7 | 35-339 |
| B3-10 | 16-90 | 35.6-43.8 | 36-338 |
| B3-11 | 12.5-71 | 52.4-63.5 | 62-636 |
| B3-12 | 16-90 | 66.3-77.2 | 62-630 |
| B3-13 | 12.5-71 | 79.5-90.7 | 94-965 |
| B3-14 | 16-90 | 99.4-113 | 93-945 |
| B3-15 | 12.5-71 | 132-153 | 159-1603 |
| B3-16 | 14-80 | 148-173 | 161-1603 |
| B3-17 | 12.5-71 | 195-200 | 208-2368 |
| B3-18 | 14-80 | 230-240 | 223-2490 |
| B3-19 | 12.5-71 | 250-300 | 312-3036 |
| B3-20 | 14-80 | 295-345 | 321-3195 |
| B3-21 | 12.5-71 | 340-420 | 437-4130 |
| B3-22 | 14-80 | 405-470 | 438-4386 |
| B3-23 | 20-71 | 560 | 583-4250 |
| B3-24 | 22.4-80 | 640 | 596-4372 |
| B3-25 | 20-71 | 800 | 833-4372 |
| B3-26 | 22.4-80 | 900 | 838-4372 |
Commeicial information:
| 1. MOQ | 1 set |
| 2. Packing method: | Polywood |
| 3. Delivery lead time: | 20-25 days |
| 4. Payment terms: | FOB, CIF |
| 5. Payment method: | T/T, 30% in advance, 70% before delivery |
| 6. Shipping port: | ZheJiang , HangZhou |
| 7. Delivey | By air, by sea |
Material:
| Housing: | HT250 cast iron |
| Gear: | 20CrMnTi H, high grade allo with carburization, surface hardness: 58-62HRC, center hardness: 33-48HRC |
| Grinding precision grade: | ISO1328-1: 1995 class 5-6, surfaceness: 0.8, carburization depth: 0.6-1.5mm |
| Bearing: | 42CrMo |
Applications:
The products are widely applied in electricity, coal, cement, metallurgy, harbor, agriculture, shipping, lifting, environment protection, stage, logistic, weaving, paper making, light industry, plastics and other regions.
Packing & shipping
1 Prevent from damage.
2. As customers’ requirements, in perfect condition.
3. Delivery : As per contract delivery on time
4. Shipping : As per client request. We can accept CIF, Door to Door etc. or client authorized agent we supply all the necessary assistant.
FAQ:
Q 1: Are you a trading company or a manufacturer?
A: We are a professional manufacturer specializing in manufacturing various series of couplings.
Q 2:Can you do OEM?
Yes, we can. We can do OEM & ODM for all the customers with customized artworks in PDF or AI format.
Q 3:How long is your delivery time?
Generally, it is 20-30 days if the goods are not in stock. It is according to quantity.
Q 4: How long is your warranty?
A: Our Warranty is 12 months under normal circumstances.
Q 5: Do you have inspection procedures for coupling?
A:100% self-inspection before packing.
Q 6: Can I have a visit to your factory before the order?
A: Sure, welcome to visit our factory. /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Application: | Machinery, Industry |
|---|---|
| Hardness: | Hardened Tooth Surface |
| Installation: | Horizontal Type |
| Layout: | Coaxial |
| Gear Shape: | Bevel Gear |
| Step: | Three-Step |
| Customization: |
Available
| Customized Request |
|---|
Can a Worm Gearbox be Used for High-Speed Applications?
Worm gearboxes are generally not recommended for high-speed applications due to their inherent design characteristics. Here’s why:
- Efficiency: Worm gearboxes tend to have lower efficiency compared to other gearbox types, which means they can generate more heat and experience more energy loss at high speeds.
- Heat Generation: The sliding contact between the worm and worm wheel in a worm gearbox can lead to significant friction and heat generation, especially at high speeds. This heat can cause thermal expansion, affecting the gearbox’s performance and longevity.
- Wear and Noise: High speeds can exacerbate wear and noise issues in worm gearboxes. Increased friction and wear can lead to faster degradation of components, resulting in reduced lifespan and increased maintenance needs.
- Backlash: Worm gearboxes may have higher backlash compared to other gearbox types, which can impact precision and accuracy in high-speed applications.
While worm gearboxes are more commonly used in applications requiring high torque and moderate speeds, they may not be the best choice for high-speed scenarios. If high-speed operation is a requirement, other gearbox types such as helical, spur, or planetary gearboxes are often better suited due to their higher efficiency, lower heat generation, and reduced wear at elevated speeds.
How to Calculate the Efficiency of a Worm Gearbox
Calculating the efficiency of a worm gearbox involves determining the ratio of output power to input power. Efficiency is a measure of how well the gearbox converts input power into useful output power without losses. Here’s how to calculate it:
- Step 1: Measure Input Power: Measure the input power (Pin) using a power meter or other suitable measuring equipment.
- Step 2: Measure Output Power: Measure the output power (Pout) that the gearbox is delivering to the load.
- Step 3: Calculate Efficiency: Calculate the efficiency (η) using the formula: Efficiency (η) = (Output Power / Input Power) * 100%
For example, if the input power is 1000 watts and the output power is 850 watts, the efficiency would be (850 / 1000) * 100% = 85%.
It’s important to note that efficiencies can vary based on factors such as gear design, lubrication, wear, and load conditions. The calculated efficiency provides insight into how effectively the gearbox is converting power, but it’s always a good practice to refer to manufacturer specifications for gearbox efficiency ratings.
Advantages of Using a Worm Reducer in Mechanical Systems
Worm reducers offer several advantages that make them suitable for various mechanical systems:
- High Gear Reduction Ratio: Worm gearboxes provide significant speed reduction, making them ideal for applications that require a high gear reduction ratio without the need for multiple gears.
- Compact Design: Worm reducers have a compact and space-saving design, allowing them to be used in applications with limited space.
- Self-Locking: Worm gearboxes exhibit self-locking properties, which means that the worm screw can prevent the worm wheel from reversing its motion. This is beneficial for applications where the gearbox needs to hold a load in place without external braking mechanisms.
- Smooth and Quiet Operation: Worm gearboxes operate with a sliding motion between the teeth, resulting in smoother and quieter operation compared to some other types of gearboxes.
- High Torque Transmission: Worm gearboxes can transmit high torque levels, making them suitable for applications that require powerful torque output.
- Heat Dissipation: The sliding action between the worm screw and the worm wheel contributes to heat dissipation, which can be advantageous in applications that generate heat during operation.
- Stable Performance: Worm reducers offer stable and reliable performance, making them suitable for continuous operation in various industrial and mechanical systems.
Despite these advantages, it’s important to note that worm gearboxes also have limitations, such as lower efficiency compared to other gear types due to the sliding motion and potential for higher heat generation. Therefore, selecting the appropriate type of gearbox depends on the specific requirements and constraints of the application.
editor by CX 2024-03-13